Supply-and-demand control apparatus, supply-and-demand control method, and supply-and-demand control system

1. A supply-and-demand control apparatus, comprising: an obtaining unit configured to obtain (i) power consumption of a device that operates using electric power and (ii) heat consumption of a device that operates using heat; a forecast unit configured to obtain demand forecast data on electric power and an amount of heat, using the obtained power consumption and the obtained heat consumption, respectively; a planning unit configured to calculate, for each point in time from a current time to a future time, an amount of electricity stored in an electricity storage device, an amount of heat stored in a heat storage device, and a control parameter for controlling operations of the electricity storage device and a heat source device that supplies heat to the heat storage device, by substituting the obtained demand forecast data into a predetermined function; a storage unit configured to store a control table in which each of the amount of electricity and the amount of heat is associated with the control parameter for each of the points in time from the current time to the future time, the amount of electricity, the amount of heat, and the control parameter being calculated by the planning unit; and a control unit configured to obtain current time information, and a current amount of stored electricity and a current amount of stored heat respectively from the electricity storage device and the heat storage device, to identify a target control parameter from the control table using the current time information, the current amount of stored electricity, and the current amount of stored heat that are obtained, and to control operations of the electricity storage device and the heat storage device based on the identified target control parameter, wherein the planning unit is configured to calculate the control parameters such that electric power generated by a predetermined power system is distributed to the electricity storage device and the heat source device, the predetermined function is a function derived from a system function and a cost function, the system function being for calculating the amount of electricity and the amount of heat at a time next to a certain time, and the cost function being for calculating an operating cost for each of the points in time, and the planning unit is configured to calculate the control parameter by adding up smallest operating costs for each of the points in time starting from the future time and ending with the current time using the cost function.

2. The supply-and-demand control apparatus according to claim 1 , wherein the planning unit is further configured to obtain information on an operating state indicating whether or not the heat source device is operating, the storage unit is further configured to store the control table in which the information on the operating state is associated with each of the amount of electricity, the amount of heat, and the control parameter for each of the points in time, and the control unit is further configured to obtain information on a current operating state of the heat source device, and to identify the target control parameter from the control table using the obtained information on the current operating state.

3. The supply-and-demand control apparatus according to claim 1 , wherein the forecast unit is configured to obtain the demand forecast data on the electric power and the amount of heat, by computing the obtained power consumption and the obtained heat consumption, respectively.

4. The supply-and-demand control apparatus according to claim 1 , wherein the control unit is configured to obtain a current amount of stored electricity and a current amount of stored heat respectively from the electricity storage device and the heat storage device (i) at intervals identical to intervals of the times at which the control parameters are stored in the control table or (ii) at intervals shorter than the intervals of the times.

5. The supply-and-demand control apparatus according to claim 1 , wherein the control unit is configured to set a value of the identified target control parameter to a device to be controlled when the value of the identified target control parameter is different from a value of a control parameter set to the device to be controlled.

6. The supply-and-demand control apparatus according to claim 1 , wherein the planning unit is configured to calculate the control parameters such that the electric power generated by the predetermined power system is distributed to the electricity storage device and the heat source device according to electric power demand and heat demand of a user.

7. The supply-and-demand control apparatus according to claim 6 , wherein the electric power to be distributed to the electricity storage device and the heat source device is surplus electric power generated by the predetermined power system.

8. The supply-and-demand control apparatus according to claim 7 , wherein the planning unit is configured to generate the control parameters such that all of the surplus electric power is used by the heat source device.

9. The supply-and-demand control apparatus according to claim 7 , wherein the planning unit is configured to generate the control parameters such that a larger amount of the surplus electric power is used by the heat source device as the amount of electricity stored in the electricity storage device is larger.

10. The supply-and-demand control apparatus according to claim 7 , wherein the planning unit is configured to generate the control parameters such that a larger amount of the surplus electric power is used by the electricity storage device as the amount of heat stored in the heat storage device is larger.

11. The supply-and-demand control apparatus according to claim 1 , wherein the heat source device is at least one of a heat pump and a fuel cell.

12. A supply-and-demand control method, comprising: obtaining (i) power consumption of a device that operates using electric power and (ii) heat consumption of a device that operates using heat; obtaining demand forecast data on electric power and an amount of heat, using the obtained power consumption and the obtained heat consumption, respectively; calculating, for each point in time from a current time to a future time, an amount of electricity stored in an electricity storage device, an amount of heat stored in a heat storage device, and a control parameter for controlling operations of the electricity storage device and a heat source device that supplies heat to the heat storage device, by substituting the obtained demand forecast data into a predetermined function; storing a control table in which each of the amount of electricity and the amount of heat is associated with the control parameter for each of the points in time from the current time to the future time, the amount of electricity, the amount of heat, and the control parameter being calculated in the calculating; and obtaining current time information, and a current amount of stored electricity and a current amount of stored heat respectively from the electricity storage device and the heat storage device, identifying a target control parameter from the control table using the current time information, the current amount of stored electricity, and the current amount of stored heat that are obtained, and controlling operations of the electricity storage device and the heat storage device based on the identified target control parameter, wherein in the calculating, the control parameters are calculated such that electric power generated by a predetermined power system is distributed to the electricity storage device and the heat source device, the predetermined function is a function derived from a system function and a cost function, the system function being for calculating the amount of electricity and the amount of heat at a time next to a certain time, and the cost function being for calculating an operating cost for each of the points in time, and in the calculating, the control parameters are calculated by adding up smallest operating costs in each of the points in time starting from the future time and ending with the current time using the cost function.

13. A supply-and-demand control system comprising a server and a supply-and-demand control apparatus, the server including: a first obtaining unit configured to obtain, from the supply-and-demand control apparatus via a network, (i) power consumption of a device that operates using electric power and (ii) heat consumption of a device that operates using heat; a forecast unit configured to obtain demand forecast data on electric power and an amount of heat, using the obtained power consumption and the obtained heat consumption, respectively; and a planning unit configured to calculate, for each point in time from a current time to a future time, an amount of electricity stored in an electricity storage device, an amount of heat stored in a heat storage device, and a control parameter for controlling operations of the electricity storage device and a heat source device that supplies heat to the heat storage device, by substituting the obtained demand forecast data into a predetermined function, the supply-and-demand control apparatus including: a second obtaining unit configured to obtain, via the network, the amount of electricity, the amount of heat, and the control parameter that are calculated by the planning unit; a storage unit configured to store a control table in which each of the amount of electricity and the amount of heat is associated with the control parameter for each of the points in time from the current time to the future time; and a control unit configured to obtain current time information, and a current amount of stored electricity and a current amount of stored heat respectively from the electricity storage device and the heat storage device, to identify a target control parameter from the control table using the current time information, the current amount of stored electricity, and the current amount of stored heat that are obtained, and to control operations of the electricity storage device and the heat storage device based on the identified target control parameter, wherein the planning unit is configured to calculate the control parameters such that electric power generated by a predetermined power system is distributed to the electricity storage device and the heat source device, the predetermined function is a function derived from a system function and a cost function, the system function being for calculating the amount of electricity and the amount of heat at a time next to a certain time, and the cost function being for calculating an operating cost for each of the points in time, and the planning unit is configured to calculate the control parameter by adding up smallest operating costs for each of the points in time starting from the future time and ending with the current time using the cost function.

14. A supply-and-demand control method, comprising: obtaining, from a supply-and-demand control apparatus via a network, (i) power consumption of a device that operates using electric power and (ii) heat consumption of a device that operates using heat, the obtaining being performed by a server; obtaining demand forecast data on electric power and an amount of heat, using the obtained power consumption and the obtained heat consumption, respectively, the obtaining being performed by the server; calculating, for each point in time from a current time to a future time, an amount of electricity stored in an electricity storage device, an amount of heat stored in a heat storage device, and a control parameter for controlling operations of the electricity storage device and a heat source device that supplies heat to the heat storage device, by substituting the obtained demand forecast data into a predetermined function, the calculating being performed by the server; obtaining, via the network, the amount of electricity, the amount of heat, and the control parameter that are calculated in the calculating, the obtaining being performed by the supply-and-demand control apparatus; storing a control table in which each of the amount of electricity and the amount of heat is associated with the control parameter for each of the points in time from the current time to the future time, the storing being performed by the supply-and-demand control apparatus; and obtaining current time information, and a current amount of stored electricity and a current amount of stored heat respectively from the electricity storage device and the heat storage device, identifying a target control parameter from the control table using the current time information, the current amount of stored electricity, and the current amount of stored heat that are obtained, and controlling operations of the electricity storage device and the heat storage device based on the identified target control parameter, the obtaining, the identifying, and the controlling being performed by the supply-and-demand control apparatus, wherein in the calculating, the control parameters are calculated such that electric power generated by a predetermined power system is distributed to the electricity storage device and the heat source device, the predetermined function is a function derived from a system function and a cost function, the system function being for calculating the amount of electricity and the amount of heat at a time next to a certain time, and the cost function being for calculating an operating cost for each of the points in time, and in the calculating, the control parameters are calculated by adding up smallest operating costs in each of the points in time starting from the future time and ending with the current time using the cost function.